solar chimney power plant
DESCRIPTION
Solar Chimney Power Plant. ME 463 Senior Design Project Design Review May Lin Chang Yu Jiang Payton Lee Katja Strohm Katharina Schweigler. Agenda. Background Katja Strohm Initial Design Concept Katja Strohm Preliminary Calculation May Lin Chang Proposed Innovation - PowerPoint PPT PresentationTRANSCRIPT
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Solar Chimney Power PlantME 463 Senior Design Project
Design Review
May Lin ChangYu Jiang
Payton LeeKatja Strohm
Katharina Schweigler
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Agenda
BackgroundKatja Strohm
Initial Design ConceptKatja Strohm
Preliminary CalculationMay Lin Chang
Proposed InnovationKatharina Schweigler
Materials and CostPayton Lee
ConclusionYu Jiang
M. Chang, Y. Jiang, P. Lee, K. Schweigler, and K. Strohm 2
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Background
• What is a solar tower?– Air heats up under greenhouse effect– Hot air rises through chimney– Updraft drives turbine
M. Chang, Y. Jiang, P. Lee, K. Schweigler, and K. Strohm 3
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Background
• Why solar tower?– Greenhouse, chimney, and turbine are available– Renewable energy
M. Chang, Y. Jiang, P. Lee, K. Schweigler, and K. Strohm 4
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Background
• Design Project Motivation– Low cost energy generation– Innovation for renewable energy
M. Chang, Y. Jiang, P. Lee, K. Schweigler, and K. Strohm 5
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Initial Design Concept
M. Chang, Y. Jiang, P. Lee, K. Schweigler, and K. Strohm 6
Chimney:- Pressure tube - Tall, hollow cylinder with small
diameter - Realized with PE pipes and steal
pipes
Turbine:- Located on the bottom of the
chimney - Mounted through a case in chimney
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Initial Design ConceptCollector area:- Large greenhoese- Plastic film covering the ground- App. diameter: 15m- Installed 4 -10 above ground on
wooden support structure
Energy storage:- Black tubes under collector area
filled with water- Heat capacity of water much higher
than soil
M. Chang, Y. Jiang, P. Lee, K. Schweigler, and K. Strohm 7
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Preliminary Calculation
Chimney/Towerηtow
Solar Energy, Q_dotsolar Collector
ηcol
Turbineηtur
8M. Chang, Y. Jiang, P. Lee, K. Schweigler, and K. Strohm
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Preliminary CalculationPrinciple Equations
• Power output of the plant, P
• Solar Energy
• Efficiency
Nomenclatures
• Solar Radiation Energy[W]
• Component Efficiency
• Global Horizontal Radiation
[W/m2]
9M. Chang, Y. Jiang, P. Lee, K. Schweigler, and K. Strohm
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Preliminary Calculation
Averaged values
Gh 5000W/m2Monthly Global Horizontal Radiation at West Lafayette (April)
g 9.81m/s gravitational constantTo 288K ambient temperature/collector inlet temperatureCp 1005J/kg.K specific heat capacity
Schlaich, Bergermann, Schiel and Weinrebe
P [W] Q [W] Acoll [m2] Htow [m] ηtow Dcoll[m] ηcoll ηturb
11.9788 883573 176.715 10 0.00034 15 0.1 0.4
10M. Chang, Y. Jiang, P. Lee, K. Schweigler, and K. Strohm
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Proposed Innovation
M. Chang, Y. Jiang, P. Lee, K. Schweigler, and K. Strohm 11
• Mirrors to “enlarge” greenhouse area
• Heat exchanger
• Black foil on the ground
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Proposed Innovation
Mirrors• Increase the amount of
radiation on greenhouse area
• Angle around horizontal axis adjusted by electric motor
• Angle around vertical axis adjusted by bionic mechanism
M. Chang, Y. Jiang, P. Lee, K. Schweigler, and K. Strohm 12
Shadow due to blade
Sun
Air bubbles
Ring filled with water
floating material (Styron foam)
shrunk bubble expanded bubble
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Bionic mechanism• Radiation heats gas in
bubbles
• Bubbles expand and push ring of mirrors
-> Mirrors face sun
M. Chang, Y. Jiang, P. Lee, K. Schweigler, and K. Strohm 13
Proposed Innovation
Mirrors
Mirrors
Air bubbles
Ring filled with water
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Proposed Innovation
M. Chang, Y. Jiang, P. Lee, K. Schweigler, and K. Strohm 14
Heat exchanger• Uses external heat to heat up the air additionally eg. from another
plant• Can be oil which is heated between angled mirrors on the ground
Cold Oil
Hot Oil
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Proposed Innovation
Black foil• Placed under oil pipes
• Heats up ground more effectively
• Goal: Store heat for night operation
M. Chang, Y. Jiang, P. Lee, K. Schweigler, and K. Strohm 15
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Materials & Cost
Collector(Greenhouse Plastic Sheet)
• Requirements– Opacity– Durability– Weight
• Cost– Between $100 and
$600 depending on size and quality
M. Chang, Y. Jiang, P. Lee, K. Schweigler, and K. Strohm 16
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Materials & Cost
Chimney• Requirements:
– Weight– Stability– Manufacturability
• Supported by steel beam or wire
M. Chang, Y. Jiang, P. Lee, K. Schweigler, and K. Strohm 17
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Materials & Cost
Computer fan as turbine• Requirement
– Efficient– Low noise
• Cost– Between $5 and $40
(depending on requirement)
M. Chang, Y. Jiang, P. Lee, K. Schweigler, and K. Strohm 18
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Future Plans
• Determine the exact dimensions
• Finalize design – select improvement method
• Material selection and Cost estimation
• Ordering and ConstructionM. Chang, Y. Jiang, P. Lee, K. Schweigler,
and K. Strohm 19
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THANK YOU
References:Gannon, A. J., Backström, T.W. v. (2000). "Solar Chimney Cycle Analysis with System Loss and Solar Collector Performance", Journal of Solar
Energy Engineering, 122 (3), 133-137.Schlaich, Bergermann, Schiel, and Weinrebe “Design and Commercialization of a Solar Updraft Tower”
Schlaich J. “The Solar Chimney: Electricity From Sun”, Edition Axel Menges, 1995.
M. Chang, Y. Jiang, P. Lee, K. Schweigler, and K. Strohm 20